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* Right-click on the subject node > Import anatomy mri: Navigate to the selected folder and then select the T1 mri, with the name "m46wap_t1.nii" |
* Right-click on the subject node > Import anatomy mri: Navigate to the selected folder and then select the T1 mri, with the name "m46wap_t1.nii" |
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| |- NAS: [92.9492, 215.1563, 67.0313] | |
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| |- LPA: [15.961, 114.8438, 54.375] | |- RPA: [173.693, 113.9063, 55.7813] | |- AC: [93.8881, 127.9687, 90.4688] | |- PC: [93.8881, 100.3125, 92.8125] | |- IH: [94.827, 91.875, 150] |
. | |- NAS: [92.9492, 215.1563, 67.0313] . | |- LPA: [15.961, 114.8438, 54.375] . | |- RPA: [173.693, 113.9063, 55.7813] . | |- AC: [93.8881, 127.9687, 90.4688] . | |- PC: [93.8881, 100.3125, 92.8125] . | |- IH: [94.827, 91.875, 150] |
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At the end of the process, make sure that the file "cortex_15000V" is selected (downsampled pial surface, which will be used for the source estimation). If it is not, double-click on it to select it as the default cortex surface. | |
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At the end of the process, make sure that the file "cortex_15000V" is selected (downsampled pial surface, which will be used for the source estimation). If it is not, double-click on it to select it as the default cortex surface | == FEM Head model construction == The first step require the generattin of the FEM head model, where the MRIs are segmented into the main tissues and then tesselated into hexahedral or tetraheral elements. The available methods within Brainstorm are listed in [[https://neuroimage.usc.edu/brainstorm/Tutorials/FemMesh|this page]]. In the following tutorial, the SimNibs method is used * Select both the T1 and the T2 MRIs, using the mouse and the "Shift" key * Right click on and then select the "Generate FEM mesh" * Select the SimNIbs method from the panel and keep the default options. In order to use the call SimNibs you need to have it installed in your computer, please follow the instruction as explained in [[https://neuroimage.usc.edu/brainstorm/Tutorials/FemMesh|this page]] . |
[TUTORIAL UNDER CONSTRUCTION]
Will be completed soon
In this tutorial we describe the full FEM process as described in the SPIE paper
We may keep the previous tutorial as a basic and this tutorial is an advanced and complete version.
FEM tutorial: MEG/EEG Median nerve stimulation
Authors: Takfarinas Medani, Juan Garcia-Prieto, Wayne Mead.
This tutorial introduces the FEM modeling in the Brainstorm environment.
Note that the operations used here are not detailed, the goal of this tutorial is not to introduce Brainstorm to new users. For in-depth explanations of the interface and theoretical foundations, please refer to the introduction tutorials.
Contents
License
This tutorial dataset (MEG/EEG and MRI data) remains proprietary of xxxxyyyy. Its use and transfer outside the Brainstorm tutorial, e.g. for research purposes, is xxxx yyy.
Download the dataset
Get the open access reference data set from here : https://zenodo.org/record/3888381
The following data are used in the advanced tutorial FEM head modeling
Description of the experiment (todo) : only one file
The experiment consists of two stimulation protocols being conducted during a single scanning session in a MEG laboratory with an Elekta Triux (Megin, Finland) scanner. The subject is a a right-handed 46 years old male. The two stimulation protocols consist of a unilateral median nerve stimulation and an eyes-close resting-state recording.
Median nerve stimulation:
- The stimulation signal was a square-wave pulse with 2Hz frequency and a duration of 0.2ms.
- An ISI (inter-stimulus interval) of 500ms with a variation of ±20ms in order to be able to average out time-locked noise to the stimulation, while remaining unnoticeable by the subject.
- The stimulation was performed on both hands/wrists, independently, with a Digitimer DS7A stimulator. An electrode was placed on each current values were tuned to match the motor threshold of the subject on the stimulated hand, with a result of 10~12mA aproximately.
- Initially, the left wrist was stimulated for aproximately 2 minutes (this corresponds with the file containing L1 in its name). After a 2-minute rest, while sitting in the MSR and with his head in the helmet, the stimulation was repeated (L2 file). After this stimulation the subject was asked to have a 10 minutes rest, during which he was allowed to sit calmly with his head out of the helmet, although remaining hooked to the scanner at all times. Finally, two subsequents runs of right wrist stimulation (R1 and R2 files) with an intermediate 2-minute rest were performed.
- Recordings were performed with a 1kHz sampling rate. Continuous HPI was disabled during these recordings. And high-pass filters were set to DC for MEG channels and 0.03Hz for EEG channels.
All files underwent a MaxFilter (version 2.3.13) tsss post-processing.
Resting-State protocol:
- The subject was recorded for aproximately 80 minutes. Due to a 2GB maximum-size limitation for FIFF files, this translates into the recording being saved in files 'epi1' to 'epi4'.
- The subject had his eyes closed.
- Recordings were performed with a 1kHz sampling rate. Continuos HPI was enabled. High-pass filterse were set to DC for MEG channels and 0.03Hz for EEG channels.
All files underwent a MaxFilter (version 2.3.13) tsss post-processing, with motion compensation active.
Download and installation
- Requirements: You have already followed all the introduction tutorials and you have a working copy of Brainstorm installed on your computer.
Go to the Download page of this website, and download the file: sample_tutoFEMadvance.zip
- Unzip it in a folder that is not in any of the Brainstorm folders (program or database folder)
- Start Brainstorm (Matlab scripts or stand-alone version)
Select the menu File > Create new protocol. Name it "tutoFEMadvanced" and select the options:
"No, use individual anatomy",
"No, use one channel file per condition".
Import the MRIs
Right-click on the TutorialFEM folder > New subject > Subject01
- Leave the default options you set for the protocol
Right-click on the subject node > Import anatomy mri: Navigate to the selected folder and then select the T1 mri, with the name "m46wap_t1.nii"
Set the 6 required fiducial points (indicated in MRI coordinates). This dataset is a good example of a real-world fiducials setting. Fiducials points not always have to be located where we recommend in our introductory and our coordinate systems tutorials. Every subject is different and sometimes things get on the way, and it is not possible to follow canonical recommendations. That is fine! As long as there is a correct correspondence between fiducial points in the fif file and in the MRI, everything works fine. In order to guide in this process, the dataset includes images of the locations with the preauricular fiducials.
Click on the link "Click here to compute MNI transformation" and keep the default values.
For the following subject you can use these values :
- | |- NAS: [92.9492, 215.1563, 67.0313]
- | |- LPA: [15.961, 114.8438, 54.375]
- | |- RPA: [173.693, 113.9063, 55.7813]
- | |- AC: [93.8881, 127.9687, 90.4688]
- | |- PC: [93.8881, 100.3125, 92.8125]
- | |- IH: [94.827, 91.875, 150]
- Load the the T2, by folowing the same process as previous, then select the T2 mri with the name "m46wap_t2.nii". Brainstorm will ask you to registed the T2 to the T1, select the SPM option (require to have SPM installed), then reslice the T2, "Yes". This process will take few minutes.
At the end of the process, make sure that the file "cortex_15000V" is selected (downsampled pial surface, which will be used for the source estimation). If it is not, double-click on it to select it as the default cortex surface.
FEM Head model construction
The first step require the generattin of the FEM head model, where the MRIs are segmented into the main tissues and then tesselated into hexahedral or tetraheral elements. The available methods within Brainstorm are listed in this page.
In the following tutorial, the SimNibs method is used
- Select both the T1 and the T2 MRIs, using the mouse and the "Shift" key
- Right click on and then select the "Generate FEM mesh"
- Select the SimNIbs method from the panel and keep the default options.
In order to use the call SimNibs you need to have it installed in your computer, please follow the instruction as explained in this page .
Access the recordings
Link the recordings
- Switch to the "functional data" view, the middle button in the toolbar above the database explorer.
Right-click on the subject folder > Review raw file:
Prepare the channel file
Refine the MRI registration
Read the stimulation information
Pre-processing
Evaluate the recordings
Frequency filters
Review the recordings
MEG: Default montages
MEG: Bad channels
EEG: Average reference
Artifacts cleaning with ICA
Detect heartbeats and blinks
EEG: Heartbeats and eye movements
MEG: Heartbeats and eye movements
Epoching and averaging
Import the recordings
Averaging
Source estimation
Head model
Noise covariance matrix
Inverse model
Regions of interest
- Create two scouts S1 and S2 to represent the primary and secondary somatosensory cortex of the left hemisphere.